Although altered EBV-specific antibody titers have been repeatedly demonstrated in CFS, no clear evidence for chronic EBV replication has been obtained so far. Authors

Perhaps the most common viral trigger for chronic fatigue syndrome (infectious mononucleosis, aka glandular fever) or Epstein Barr Virus (EBV) is a herpesvirus almost all adults have been exposed to and carry, usually in latent form in their cells.

Conflicting results have made it difficult to determine the role EBV plays in ME/CFS. Will this German study signal a change?

EBV infection was proposed as the cause of chronic fatigue syndrome not long after the disorder became prominent in the 1980s, but inconsistent study results in the 1980s and 1990s followed by Straus’s 2000 paper (which suggested the search for herpesvirus infections in ME/CFS was over) put a damper on EBV research efforts.

From 2000 to the present only Dr. Lerner with his stream of positive studies (but sometimes challenging study designs) and Dr. Glaser published fairly consistently on EBV in ME/CFS. Recently Dr. Lipkin stated (unpublished) he found no evidence of active EBV infection using high throughput sequencing in the plasma of hundreds of ME/CFS patients.

Despite study inconsistencies, EBV has remained a pathogen of interest in ME/CFS. Both Lerner and Glaser have produced evidence suggesting that a defective form of the EBV virus may be causing the symptoms in some people with ME/CFS. Recent studies suggesting that EBV triggers autoimmune disorders are intriguing given the successful ME/CFS Rituximab treatment trials.

EBV’s ability to reactivate during stress and in hypoxic conditions may have implications for its possible role in ME/CFS as well. A recent laboratory study suggesting that high rates of oxidative stress can reactivate EBV and that antioxidants (including NAC, catalase, and L-glutathione) might be helpful in reducing EBV reactivation is intriguing given the high rates of oxidative stress found in ME/CFS.

Now, in a surprising turn, German researchers have not only put the spotlight back on EBV, but have dug deeper into EBV, ME/CFS, and the associated immune response than any group has before.

The adaptive part of the immune system, the one that takes time to kick in, comes in the form of B-cell produced antibodies that lock onto proteins the virus produces and cytotoxic T-cells that attempt to the kill the virus. (B-cell’s attack the virus in the blood and cytotoxic T-cell attack virally infected cells.)

Ohio State researchers believe a defective form of EBV that is spewing out proteins may be causing ME/CFS.

Noting some unusual findings in their lab, these researchers looked at these antibodies and T-cells to see if people with chronic fatigue syndrome were mounting an effective immune response against EBV. They also looked for direct evidence of an active EBV infection.

EBV replication occurs when the virus produces proteins in a sequence that allows it to build another virus. One theory, developed by Dr. Lerner and a group at The Ohio State University (that includes Drs. Ariza, Glaser, and Williams), proposes that EBV undergoes ‘abortive replication’ in some people with ME/CFS. In abortive replication, a defective form of EBV produces early proteins, but is unable to produce later ones. The Ohio State group believes continual production of these proteins is causing a chronic inflammatory state in some people with ME/CFS.

Results

First, the German researchers found evidence of primary EBV infection or reactivation (increased IgM antibodies to a late EBV protein in @15% of patients vs 3% of controls) in significantly more ME/CFS patients than controls. The fact that this could be a ‘primary infection’; i.e. it represents the first time
these patients are exposed to the virus is intriguing. A primary infection of EBV early in life usually leads to nothing more than a cold; a primary infection later in life can have serious consequences including infectious mononucleosis.

Having found evidence that an active EBV infection was more common in people with ME/CFS than controls, they looked to see if a reduced immune response was responsible for that.

The first hint of a reduced immune response to EBV in ME/CFS came in the form of a lack of antibodies to EBV-produced proteins VCA and EBNA1.

But first, a short antibody primer:

Antibodies attack pathogens in the blood; cytotoxic T-cells attack them in the cell

Antibody Types

IgG antibodies are ‘memory antibodies’ that travel through our system looking for evidence that a pathogen is present. Once your B-cells have mounted an attack against a pathogen, they are always present in our system. Therefore, IgG antibodies are not evidence of an ongoing infection.

IgM antibodies are attack proteins associated with a pathogen. High IgM titers to a viral protein generally reflect a primary infection.

With two types of antibodies being manufactured against a range of viral proteins the situation becomes complicated, but a healthy immune system should produce an array of both IgG and IgM antibodies that can detect (IgG) and inhibit (IgM) pathogens (found outside cells) at different stages of their lifecycles.
As they dug deeper, the German researchers found holes in the immune response to EBV in ME/CFS patients.

Immune Holes to Epstein-Barr Virus Found

Immune Hole #1 – reduced antibody response

Evidence of a impaired B-cell response to EBV first came in the form of missing IgG antibodies to VCA and EBNA in 13% of ME/CFS patients compared to 4% of controls. This indicated that 13% of their ME/CFS study population did not have some of the memory B-cells needed to detect an EBV infection.

Increased IgM antibody responses in ME/CFS (17.5% in ME/CFS vs 4% in controls), on the other hand, suggested active and perhaps primary EBV infections were more commonly found in ME/CFS patients.

All told, 30% of the ME/CFS patients either had reduced IgG (EBNA-IgG) or increased IgM (VCA) responses to EBV.
That finding prompted a deeper look, and a much larger study that found no IgG response to a protein expressed during latency by EBV (called EBNA-1 protein) in 10% of IgG positive ME/CS patients. This indicated that the immune systems of approximately 10% of the ME/CFS group were unable to detect a very early stage of EBV latency.

The EBNA-1 protein featured in many of the tests helps EBV maintain its latency in B-cells

Latency – For EBV to maintain itself in the body over time, it needs to be able to maintain itself in B-cells in a process called latency. EBNA-1 is a protein that helps maintain EBV’s viral genome in the earliest stages of latency.

The authors noted that people with severe infectious mononucleosis and chronic active Epstein-Barr virus disease have similar findings (although it’s not clear why, given that EBNA-1 is not involved, so far as we know, in replication).

That brings up the question of how many people with ME/CFS would have fit into the category of severe mononucleosis at the time they got ill. The Dubbo studies found that more severe infections greatly increase the risk of coming down with ME/CFS.

Intrigued by the findings, the German researchers dug deeper into the immune response to EBV. They took blood (PBMCs) from ME/CFS patients and then stimulated it with CpG, SAC, and PWM for seven days, and found reduced frequencies of B-cells producing antibodies against VCA and EBNA-1, and for the first time they found evidence of immune deficiencies in most people with ME/CFS.

No less than 59% of ME/CFS samples had a diminished response to a later stage EBV protein (VCA) produced during the late stage of lytic replication, and a whopping 76% of ME/CFS samples had a diminished response to the EBNA-1 protein. With the VCA finding we have evidence suggesting many people with ME/CFS may have trouble controlling EBV replication.

Calling the findings ‘remarkable’, the authors suggested that either the memory B-cells associated with these EBV antigens had been lost or had failed to develop into antibody-secreting cells.

Immune Hole #3 – Reduced T-cell response to EBNA-1

A similar deficiency in the T-cell response to EBNA-1 indicated that both arms of the adaptive immune response to Epstein-Barr Virus, the B-cells and the T-cells, had difficult recognizing and responding to this protein.

Citing other disorders such as HIV, they suggested that persistent EBV reactivation in ME/CFS had driven the T-cell response in ME/CFS into ‘exhaustion’. (A similar suggestion has been made with regard to natural killer cells that attack pathogens early in an infection, which use killing methods similar to those employed by T-cells.)

Further analysis suggested that T-cell suppressor cells which decrease B-cell responses were not responsible for the B-cell suppression found. Normal B-cell responses to herpes simplex and cytomegalovirus suggested that the deficient B-cell responses were associated with EBV and not other herpesviruses.
Lower cytotoxic T-cell responses to EBNA-1 could be associated with an increased risk of autoimmune disorders

Next they explored T-cell induced cytokine production. The T-cells should produce an array of cytokines against EBV. About 20% fewer ME/CFS patients (70% of controls vs 50% of ME/CFS patients) were able to mount an IFN-y response against EBV.

Looking specifically at the latency associated EBNA-I protein, they found the startling result that no ME/CFS patients mounted an IFN-y response against it.

They also found that ME/CFS patients produced significantly lower amounts of the pro-inflammatory cytokine TNF-a in response to EBV. Finally, a lower percentage of patients produced IL-2 as well. The reduced cytokine production suggested cytotoxic T-cells, one of the big guns of the adaptive immune response, were not being strongly activated in response to EBV.

Immune Hole #5 – Reduced frequencies of EBNA-1 specific T-cells

The researchers dug deeper still. Next they stimulated the blood (PBMCs) of ME/CFS patients and healthy controls (n=40) with the EBNA-1 protein, expanded the cells in the presence of IL-2 and Il-7, and then checked the T-cell response to them. Specific types of T-cells should be produced to attack EBV, but reduced frequencies of EBV-specific T-cells occurred in about 50% of the ME/CFS samples. That again suggested the cytotoxic T-cell response to the EBNA-1 protein was substantially reduced in ME/CFS.

Direct Evidence of Active EBV Infection

“Remarkably, in line with this finding we could provide evidence of enhanced viral load of EBV by detection of EBV DNA in a significantly higher proportion of patients compared to healthy controls.” The authors

Using a real-time PCR test in the whole blood that looked for ‘low-copy’ numbers (<1,000-2930 copies/ml) they found evidence of increased EBV viral load in 7.2% of 290 ME/CFS patients. When they dug deeper and did the same test in PBMCs in a subset of patients, they found that a whopping 55% of patients (vs 13% of controls) tested positive for EBV.

The viral loads were far below those found in other EBV associated illnesses such as infectious mononucleosis or post-transplant EBV infections, and there was no evidence of lytic replication (i.e., full replication of the virus), but something the authors called ‘latency-associated replication’ was common in people with ME/CFS, yet not in healthy controls.

The Lipkin Study

Using PCR the German researchers found much higher rates of EBV infection in PBMCs vs whole blood and no evidence of EBV infection in plasma.

Was looking for EBV in plasma somehow a mistake?

Neither the Lipkin CFI ME/CFS pathogen study nor the CFIDS Association of America BSR study found evidence of EBV infection in ME/CFS. According to Russell Fleming’s transcript of the Lipkin talk, the CFI study looked in the plasma of both the Montoya and the ME/CFS experts’ samples.

EBV DNA has certainly been found successfully in plasma before and plasma has been used to track EBV activation. Serum/plasma EBV PCR kits are available for purchase. Researchers search and find EBV in plasma frequently. It’s not clear, at least to me, why plasma would not work in this case.

Dr. Chia, however, reportedly stated he believes the use of plasma rather than blood was a serious mistake, and the Germans were able to find evidence of EBV activation in blood but not in plasma. We’re obviously missing some background data here, and everyone who went through the XMRV saga knows how incredibly complex the field of pathogen detection can be.

The Future

The German researchers are deepening their study of EBV and ME/CFS and currently evaluating antibody responses against a broader variety of EBV peptides derived from 8 different proteins. They are also quantifying the levels of memory B-cells targeting EBNA-1 and VCA.

Conclusion

“We think the altered pattern of the specific immune response to EBV may be suitable as a diagnostic marker for CFS.” Authors

It was as if these researchers kept pulling a string that got longer and longer. First their interest was piqued by some paradoxical antibody findings, then they found widespread deficiencies in some antibody responses and T-cell responses, and finally they saw evidence of an active EBV infection in the blood of 55% people with ME/CFS (vs 7% of controls).

Much is still unclear. The EBNA-1 protein that the immune systems of ME/CFS patients had trouble responding to is associated with ‘early latency’, not EBV replication. The authors’ reference to ‘latency associated replication’ is unclear given that latency is not usually associated with replication. When asked what importance their findings have for EBV reactivation or EBV survival or more severe casesof infectious mononucleosis in ME/CFS, the authors stated they can’t answer those questions yet.

Some researchers believe, however, that reduced cytotoxic T-cell responses to EBV increase the risk for autoimmune disorders. (We’ll be covering that possibility in the next blog.) These findings also suggest that the proposal by Lerner and the OSU group of Drs. Ariza, Glazer, and Williams that an abortive lytic process (smoldering EBV infection) is present in many people with ME/CFS may be correct.

While it will take more work to determine what these findings mean for ME/CFS, the broad range of dysfunction found and the high rate of active EBV infection (in plasma) would appear to put this pathogen back into play in a meaningful way in ME/CFS.

Please Discuss This Article:

These results resonate with me

Posted by: Sandy10mMay 11, 2014

My experience with EBV started with a Mono episode when I was 20 years old. I got Mono on the first day of military basic training, so for 4 weeks, instead of resting, I did the exact opposite x 10. After I got home from training, I did a lot of resting, but the EBV was firmly entrenched. I never recovered from that fatigue episode, and to this day (30 years later) I continue to have relapses of EBV, as shown by the IgG and IgM titers. These German researchers are onto something important. Obviously we aren't going to get this kind of research done in the US (after all, ME/CFS is a psychological disease, right??), so I hope the German guys get all the funding they need and publish soon. And also start looking at how to combat the EBV once and for all. For now, all I know about is Larrea RX (filtered Chaparral), and I have been using it for almost a year now with good results. Not great, but good enough for me to survive day to day until the actual cure comes along.